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Information coming from the sensory neurons in the head enters the central nervous system (CNS) through cranial nerves. Information from the sensory neurons below the head enters the spinal cord and passes towards the brain through the 31 spinal nerves. [26] The sensory information traveling through the spinal cord follows well-defined pathways.
Axons from upper motor neurons synapse onto interneurons in the spinal cord and occasionally directly onto lower motor neurons. [3] The axons from the lower motor neurons are efferent nerve fibers that carry signals from the spinal cord to the effectors. [4] Types of lower motor neurons are alpha motor neurons, beta motor neurons, and gamma ...
Central pattern generators are groups of neurons in the spinal cord that are responsible for generating stereotyped movement. It has been shown that in cats, rhythmic activation patterns are still observed following removal of sensory afferents and removal of the brain., [1] indicating that there is neural pattern generation in the spinal cord independent of descending signals from the brain ...
A motor nerve, or efferent nerve, is a nerve that contains exclusively efferent nerve fibers and transmits motor signals from the central nervous system (CNS) to the muscles of the body. This is different from the motor neuron , which includes a cell body and branching of dendrites, while the nerve is made up of a bundle of axons.
A sensory system consists of sensory neurons (including the sensory receptor cells), neural pathways, and parts of the brain involved in sensory perception and interoception. Commonly recognized sensory systems are those for vision , hearing , touch , taste , smell , balance and visceral sensation.
Sensory neurons are found in the back (dorsal) horns of the spinal cord's grey matter. They carry sensory information such as touch, pressure, and pain from the body to the spinal cord and brain. They carry sensory information such as touch, pressure, and pain from the body to the spinal cord and brain.
Additionally, outputs from the motor system can be used to modify the sensory system's response to future stimuli. [1] [2] To be useful it is necessary that sensory-motor integration be a flexible process because the properties of the world and ourselves change over time. Flexible sensorimotor integration would allow an animal the ability to ...
The force produced in a given muscle thus depends on: 1) How many motor neurons are active, and their spike rates; 2) the contractile properties and number of muscle fibers innervated by the active neurons. To generate more force, increase the spike rates of active motor neurons and/or recruiting more and stronger motor units.